CN114412931A

CN114412931A - Acceleration mechanism for assembling fluency strip

Info

Publication number: CN114412931A
Application number: CN202210065089.4A
Authority: CN
Inventors: 毛杰伟; 张金婷
Original assignee: Baicheng Normal University
Current assignee: Baicheng Normal University
Priority date: 2022-01-20
Filing date: 2022-01-20
Publication date: 2022-04-29
Anticipated expiration: 2042-01-20
Also published as: CN114412931B

Abstract

The invention discloses an accelerating mechanism for assembling fluency strips, and particularly relates to the technical field of accelerating mechanisms, which comprises a rotating rod, wherein a butt joint rod is arranged at one end of the rotating rod, and a splicing mechanism is arranged outside the butt joint rod; splicing mechanism is including setting up at the outside solid fixed ring of butt joint pole, gu fixed ring one side is annular equidistance and distributes and has seted up four constant head tanks, the inside multi-tooth embedded groove that is provided with of butt joint pole, cross constant head tank and opposite side are seted up to multi-tooth embedded groove one side and are installed the locating piece. According to the invention, the splicing mechanism is adopted, after splicing, multi-point positions are synchronously twisted from inside to outside, the twisting force is dispersed to a plurality of connecting positions outside and inside, so that meshing twisting is uniformly carried out, abrasion is not easy to cause, even if one point position is abraded, other splicing point positions can still play a transmission role, the service life of the accelerating mechanism is greatly prolonged, and the durability is higher.

Description

Acceleration mechanism for assembling fluency strip

Technical Field

The invention relates to the technical field of acceleration mechanisms, in particular to an acceleration mechanism for assembling fluency strips.

Background

The existing accelerating mechanisms on the forklift are of two types, one is a pedal type, and the other is a hand-rotating type. The hand-operated type non-hand-held device can achieve the effect of controlling the driving speed by holding operation for a long time, and generally needs to butt the accelerating mechanism to a specified driving position and realize the accelerating effect by driving with the motor.

In practical use, in order to facilitate transportation and installation, splicing type butting is generally needed, so that a butting and accelerating mechanism can be applied to an accelerating position to finish accelerating operation, and the following defects exist;

when the concatenation is fixed, the splice back hookup location is under the effect of torsional force, and torsional force distributes unevenly to can cause the splice position wearing and tearing comparatively serious, easily cause like this to send not hard up damage, lead to the effect relatively poor with higher speed, the durability is relatively poor.

Disclosure of Invention

In order to overcome the defects in the prior art, the embodiment of the invention provides the accelerating mechanism for assembling the fluency strips, the assembling mechanism is adopted, after the assembling, the synchronous torsion of multiple point positions from inside to outside is realized, the torsion force is dispersed to a plurality of connecting positions outside and inside, the meshing torsion is uniformly carried out, the abrasion is not easy to cause, even if one point position is abraded, the splicing positions of other point positions can still play a transmission role, the service life of the accelerating mechanism is greatly prolonged, the durability is higher, and the problems in the background art are solved.

In order to achieve the purpose, the invention provides the following technical scheme: an accelerating mechanism for assembling fluency strips comprises a rotary rod, wherein a butt joint rod is arranged at one end of the rotary rod, and a splicing mechanism is arranged outside the butt joint rod;

splicing mechanism is including setting up at the outside solid fixed ring of butt joint bar, gu fixed ring one side is annular equidistance and distributes and seted up four constant head tanks, the inside multi-tooth embedded groove that is provided with of butt joint bar, multi-tooth embedded groove one side has been seted up cross constant head tank and opposite side and has been installed the locating piece, locating piece one side is connected with first grafting tooth piece, first grafting tooth piece one side is connected with installation branch, installation branch outside is annular equidistance and distributes and has four location matching strips, installation branch one end is provided with second grafting tooth piece, second grafting tooth piece one side is provided with the transmission, the location butt joint groove has been seted up to the transmission inner wall, the laminating tooth's socket has been seted up to location butt joint groove one side.

In a preferred embodiment, welded fastening between rotary rod and the butt joint pole, fixed ring inside and the outside welded fastening of butt joint pole, the outside fixed ring looks joint with the constant head tank affiliated of location matching strip one end, and annular equidistance joint, the outside transmission head looks joint with the location butt joint groove affiliated of location matching strip other end, the location piece erects cross-sectional shape and sets up to the cross, the cross constant head tank erects cross-sectional area and is greater than the location piece and erects cross-sectional area, first grafting tooth piece is similar with many teeth embedded groove shape and first grafting tooth piece erects cross-sectional area and is less than many teeth embedded groove and erects cross-sectional area.

In a preferred embodiment, a first semicircular butt joint ring is arranged outside the positioning matching strip, two ends of the first semicircular butt joint ring are respectively provided with an inserting block, a fastening mechanism is arranged above the inserting block and comprises a second semicircular butt joint ring arranged above the inserting block, the second semicircular butt joint ring and the inserting block are clamped, the outer walls of the second semicircular butt joint ring and the first semicircular butt joint ring are respectively provided with a pulling support plate, the pulling support plate is connected with a sliding block close to the inner wall of one side, two sides of the sliding block are respectively provided with a limiting plate, two sides of the limiting plate are respectively provided with a positioning sliding frame, a sliding support plate is arranged inside the positioning sliding frame, the bottom end of the limiting plate is provided with a threaded driving block, a rotating screw rod is arranged inside the threaded driving block, and the other side of the pulling support plate is connected with a limiting and jointing block, the sliding support plate and the sliding block are fixedly welded, the sliding support plate is connected with the positioning sliding frame in a sliding mode, one side of the sliding support plate is connected with a linkage block, a limiting block is arranged above the linkage block, the rotating screw rod is connected with the threaded transmission block in a threaded mode, one end of the rotating screw rod is provided with a rotating cap, and the vertical cross section of the rotating cap is hexagonal.

In a preferred embodiment, the other end of the rotating rod is provided with a linkage rotating rod, the outer wall of the linkage rotating rod is sleeved with a sleeved rotary ring, a linkage gear is arranged outside one end of the linkage rotating rod and at one side of the sleeved rotary ring, a transmission rotating rod is arranged inside the linkage gear, three driving gears are distributed outside the linkage gear in an annular and equidistant manner, a supporting shaft lever is arranged inside the driving gear, a plurality of meshed racks are arranged outside the driving gear, a linkage gear ring is connected outside the racks, a sleeving protection box is sleeved outside the rotating rod, the outside of the transmission rotating rod is fixedly connected with the inside of the linkage gear, the driving motor is installed to transmission bull stick one end, the driving motor both sides all are provided with the support, the meshing transmission is connected between drive gear and the linkage gear.

The invention has the technical effects and advantages that:

1. the invention adopts a splicing mechanism to enable a positioning block to enter a cross positioning groove for clamping, a first splicing tooth block enters a multi-tooth embedded groove for completing the clamping operation, a positioning matching strip enters a positioning groove on a fixing ring for clamping, a mounting support rod drives a second splicing tooth block to enter a fitting tooth groove in a transmission head, the positioning matching strip can enter a positioning butt-joint groove for completing the embedded butt-joint, thus, during the transmission, the fixing ring drives a plurality of positioning matching strips to rotate, the butt-joint rod can drive the positioning block and the first splicing tooth block to transmit, the second splicing tooth block can drive the transmission head to rotate at multiple points, the multi-point synchronous torsion is realized from inside to outside after the splicing, the torsion force is dispersed to a plurality of connecting positions outside and inside, the uniform meshing torsion is realized, the abrasion is not easy to cause, even if the points are abraded, the splicing point position can still play a role in transmission, so that the service life of the accelerating mechanism is greatly prolonged, and the durability is higher;

2. the invention adopts a fastening mechanism to clamp a second semicircular butt joint ring and a first semicircular butt joint ring outside four positioning matching strips through an insertion block, a screw rod is rotated to drive a thread transmission block to move left under the action of threads, the thread transmission block drives a sliding support plate to move left, the sliding block drives a pulling support plate to move left, the pulling support plate is pulled to drive a limiting joint block to move, the first semicircular butt joint ring moves, therefore, the first semicircular butt joint ring and the second semicircular butt joint ring can pull and fix the four positioning matching strips to the left, and the vertical quick butt joint and the transverse movement, the fitting and the fixation can be realized, the transverse fixing force of the positioning matching strip can be improved, looseness can not be caused, the fixing is more convenient, and the firmness after the fixing is greatly improved;

3. the transmission device adopts the driving motor to drive the transmission rotating rod to perform transmission, the transmission rotating rod drives the linkage gear to perform transmission, the linkage gear drives the three driving gears to perform gear meshing transmission, the driving gears drive the plurality of racks to perform transmission, the racks drive the linkage gear ring to rotate, and the sleeve joint rotating ring drives the linkage rotating rod to rotate, so that in the transmission process, transmission is performed in a grading way from small to large, the transmission starts from small gears to drive large gears to perform transmission from inside to outside, the transmission is more labor-saving, the torsional acceleration force is higher, the transmission force is stronger, and in the transmission process, the transmission stability is higher due to multi-gear linkage;

in conclusion, through the mutual influence of the above functions, multi-point synchronous torsion from inside to outside is realized after splicing, the torsion force is dispersed to a plurality of connecting positions outside and inside, so that the meshing torsion is uniformly carried out, the abrasion is not easy to cause, even if one point is abraded, the splicing points of other points can still play a transmission role, so that the service life of the acceleration mechanism is greatly prolonged, the transverse fixing force of the positioning matching strip can be ensured without causing looseness even if the other point is transversely moved, the fixation is more convenient and the firmness after fixation is greatly improved, the transmission is carried out in a grading way from small to large, the transmission is carried out by driving the large gear from inside to outside through the small gear, the transmission is more labor-saving, the torsion acceleration force is larger, and the durability of the acceleration mechanism can be effectively improved, and when the device is used, the transmission is more labor-saving, the transmission stability is higher, and the shaking is not easy to cause.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

FIG. 2 is a schematic view of a positioning block and a cross positioning slot of the present invention.

Fig. 3 is a schematic view of a butt joint structure of the second plugging tooth block and the fitting tooth groove.

Fig. 4 is a schematic view of a first semicircular docking ring structure according to the present invention.

FIG. 5 is a schematic view of the connection between the pulling support strip plate and the position limiting fitting block of the present invention.

Fig. 6 is an enlarged schematic view of a portion a in fig. 5 according to the present invention.

Fig. 7 is a schematic cross-sectional structure diagram of the socket protection box of the present invention.

Fig. 8 is an enlarged view of the structure at B in fig. 7 according to the present invention.

The reference signs are: 1. rotating the rod; 2. a docking rod; 3. a fixing ring; 4. a cross positioning slot; 5. a multi-tooth embedded groove; 6. positioning blocks; 7. a first plugging tooth block; 8. mounting a support rod; 9. positioning the matching strips; 10. a second plug-in tooth block; 11. a drive head; 12. positioning the butt joint groove; 13. fitting the tooth socket; 14. a first semicircular docking ring; 15. an insertion block; 16. a second semi-circular docking ring; 17. pulling the supporting strip plate; 18. a slider; 19. A limiting plate; 20. a sliding support plate; 21. positioning a sliding frame; 22. a threaded transmission block; 23. rotating the screw; 24. Rotating the cap; 25. a linkage block; 26. a limiting block; 27. a limiting fitting block; 28. a linkage rotating rod; 29. a rotating ring is sleeved; 30. a transmission rotating rod; 31. a linkage gear; 32. a drive gear; 33. a support shaft; 34. A rack; 35. a linkage toothed ring; 36. a drive motor; 37. a support bracket; 38. sleeving a protection box; 39. And (6) positioning a groove.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The accelerating mechanism for assembling the fluency strip shown in the attached figures 1-8 comprises a rotating rod 1, wherein one end of the rotating rod 1 is provided with a butt joint rod 2, and the outside of the butt joint rod 2 is provided with a splicing mechanism;

splicing mechanism is including setting up at the solid fixed ring 3 of 2 outsides of butt joint pole, gu 3 one sides of fixed ring are annular equidistance and distribute and seted up four constant head tanks 39, butt joint pole 2 is inside to be provided with multi-tooth embedded groove 5, cross constant head tank 4 and opposite side are seted up to multi-tooth embedded groove 5 one side and are installed locating

piece

6, 6 one side of locating piece is connected with first

grafting tooth piece

7, 7 one side of first grafting tooth piece is connected with installation branch 8, installation branch 8 outside is annular equidistance and distributes and match strip 9 for four location, 8 one end of installation branch is provided with second grafting tooth piece 10, second grafting tooth piece 10 one side is provided with transmission 11, transmission 11 inner wall has been seted up location butt joint groove 12, laminating tooth's socket 13 has been seted up to location butt joint groove 12 one side.

In some embodiments, as shown in fig. 1-3, the rotating rod 1 and the docking rod 2 are welded and fixed, the inside of the fixing ring 3 is welded and fixed with the outside of the docking rod 2, so that the rotating rod 1 drives the docking rod 2 to rotate, the docking rod 2 drives the fixing ring 3 to rotate, the outside of one end of the positioning matching strip 9 is clamped with the fixing ring 3 to which the positioning groove 39 belongs, and the fixing ring is clamped at equal distance, the outside of the other end of the positioning matching strip 9 is clamped with the transmission head 11 to which the positioning docking groove 12 belongs, so that the positioning matching strip 9 enters the positioning groove 39 on the fixing ring 3 to be clamped, the positioning matching strip 9 can enter the positioning docking groove 12 to complete embedded docking, the vertical cross-sectional shape of the positioning block 6 is set to be cross-shaped, the vertical cross-sectional area of the cross-shaped positioning groove 4 is larger than the vertical cross-sectional area of the positioning block 6 to enter the cross-shaped positioning groove 4 to be clamped, the first inserting tooth block 7 is similar to the multi-tooth embedded groove 5 in shape, and the vertical cross section area of the first inserting tooth block 7 is smaller than that of the multi-tooth embedded groove 5, so that the first inserting tooth block 7 enters the multi-tooth embedded groove 5 to complete clamping operation.

In some embodiments, as shown in fig. 4-6, a first semicircular butt-joint ring 14 is disposed outside the positioning matching strip 9, two ends of the first semicircular butt-joint ring 14 are both provided with a plug-in block 15, a fastening mechanism is mounted above the plug-in block 15, the fastening mechanism includes a second semicircular butt-joint ring 16 disposed above the plug-in block 15, the second semicircular butt-joint ring 16 is in snap-joint with the plug-in block 15, outer walls of the second semicircular butt-joint ring 16 and the first semicircular butt-joint ring 14 are both provided with a pulling support plate 17, a sliding block 18 is connected to the pulling support plate 17 near one side of the inner wall, two sides of the sliding block 18 are both provided with a limit plate 19, two sides of the limit plate 19 are both provided with a positioning sliding frame 21, a sliding support plate 20 is disposed inside the positioning sliding frame 21, a threaded drive block 22 is disposed at the bottom end of the limit plate 19, a rotating screw 23 is disposed inside the threaded drive block 22, a limit joint block 27 is connected to the other side of the pulling support plate 17, the sliding support plate 20 and the sliding block 18 are welded and fixed, the sliding support plate 20 is connected with the positioning sliding frame 21 in a sliding mode, one side of the sliding support plate 20 is connected with a linkage block 25, a limiting block 26 is arranged above the linkage block 25, the rotating screw 23 is connected with the threaded transmission block 22 in a threaded mode, one end of the rotating screw 23 is provided with a rotating cap 24, and the vertical section of the rotating cap 24 is hexagonal;

so that can push two pulling brace boards 17, second semicircle butt-joint ring 16 begins to contact with plug block 15, thereby match the ring joint with second semicircle butt-joint ring 16 and first semicircle butt-joint ring 14 outside four location matching strips 9 through plug block 15 joint, it rotates cap 24 and drives rotation screw 23 and corotate, it drives screw drive block 22 and carries out the left shift under the screw thread effect to rotate screw 23, sliding block 18 drives pulling brace board 17 and carries out the left shift, can make pulling brace board 17 drive spacing laminating piece 27 and remove, can make first semicircle butt-joint ring 14 and second semicircle butt-joint ring 16 carry out the left shift pulling to four location matching strips 9 and fix, realize the fixed effect of embedding, and in sliding support board 20 removal process, can play spacing effect to linkage block 25 by stopper 26, prevent linkage block 25 from moving beyond the limits.

In some embodiments, as shown in fig. 7-8, the other end of the rotating rod 1 is provided with a linkage rotating rod 28, the outer wall of the linkage rotating rod 28 is sleeved with a socket rotating ring 29, a linkage gear 31 is installed outside one end of the linkage rotating rod 28 and at a position on one side of the socket rotating ring 29, a transmission rotating rod 30 is arranged inside the linkage gear 31, three driving gears 32 are annularly and equidistantly distributed outside the linkage gear 31, a supporting shaft rod 33 is arranged inside the driving gear 32, a plurality of meshed racks 34 are arranged outside the driving gears 32, a linkage toothed ring 35 is connected outside the plurality of racks 34, a socket protecting box 38 is sleeved outside the rotating rod 1, the outside of the transmission rotating rod 30 is fixedly connected with the inside of the linkage gear 31, one end of the transmission rotating rod 30 is provided with a driving motor 36, both sides of the driving motor 36 are provided with supporting brackets 37, and the driving gears 32 are in meshed transmission connection with the linkage gear 31;

so that driving motor 36 drives transmission bull stick 30 and transmits, transmission bull stick 30 drives linkage gear 31 and transmits, linkage gear 31 drives three drive gear 32 and carries out the gear engagement transmission, drive gear 32 drives a plurality of racks 34 and transmits, linkage ring gear 35 drives and cup joints rotatory ring 29 and transmits, linkage bull stick 28 drives rotary rod 1 and transmits, the transmission is started up and is driven the gear wheel by the pinion and from inside to outside transmits like this, it is more laborsaving to transmit.

The working principle of the invention is as follows: during splicing, the mounting support rod 8 can be moved leftwards, the mounting support rod 8 drives the four positioning matching strips 9 to move, so that the positioning matching strips 9 enter the positioning grooves 39 on the fixing ring 3 to be clamped, meanwhile, the positioning blocks 6 enter the cross positioning grooves 4 to be clamped, the first splicing tooth blocks 7 enter the multi-tooth embedded grooves 5 to complete clamping operation, so that splicing operation of the mounting support rod 8 and the butt joint rod 2 can be completed, then the fixing ring 3 is integrally moved rightwards, the fixing ring 3 can drive the butt joint rod 2 to drive the mounting support rod 8 to move rightwards, so that the mounting support rod 8 drives the second splicing tooth blocks 10 to enter the laminating tooth grooves 13 in the transmission head 11, the positioning matching strips 9 can enter the positioning butt joint grooves 12 to complete embedding butt joint, finally, the transmission head 11 is welded at the transmission position, so that during rotation, the rotary rod 1 drives the butt joint rod 2 to rotate, the butt joint rod 2 drives the fixing ring 3 to rotate, the fixing ring 3 can drive the positioning matching strips 9 to rotate, meanwhile, the butt joint rod 2 can drive the positioning block 6 and the first inserting tooth block 7 to transmit, multi-point embedding rotation is achieved, meanwhile, the second inserting tooth block 10 can drive the transmission head 11 to rotate at multiple points, the transmission head 11 can drive the transmission position to accelerate, and multi-point synchronous torsion from inside to outside is achieved after splicing;

when the positioning block 6 is fixed, after the positioning block 6 is butted on the cross positioning slot 4, two pulling support strip plates 17 can be extruded, so that the pulling support strip plates 17 drive the sliding blocks 18 to enter gaps formed between the two limiting plates 19, and the sliding support plate 20 moves inside the positioning sliding frame 21, so that the second semicircular butt-joint ring 16 can start to contact with the insertion block 15, the second semicircular butt-joint ring 16 and the first semicircular butt-joint ring 14 are clamped outside the four positioning matching strips 9 through the insertion block 15, then the rotating cap 24 is rotated, the rotating cap 24 drives the rotating screw 23 to rotate forwards, the rotating screw 23 drives the thread transmission block 22 to move leftwards under the action of threads, the thread transmission block 22 drives the sliding support plate 20 to move leftwards the sliding block 18, the sliding block 18 drives the pulling support strip plates 17 to move leftwards, so that the pulling support strip plates 17 drive the limiting fitting blocks 27 to move, meanwhile, the supporting strip plate 17 is pulled to drive the first semicircular butt joint ring 14 to move, so that the first semicircular butt joint ring 14 and the second semicircular butt joint ring 16 can move left to pull and fix the four positioning matching strips 9, the embedding and fixing effects are realized, the outer ring is fixed in a linkage manner, the fixing is more convenient, and the stability is higher;

during driving, can play the effect of support to driving motor 36 through two support brackets 37, and cup joint protection box 38 and can play the effect of protection to its inside part, then start driving motor 36, driving motor 36 drives transmission bull stick 30 and transmits, transmission bull stick 30 drives linkage gear 31 and transmits, linkage gear 31 drives three drive gear 32 and carries out the gear engagement transmission, drive gear 32 drives a plurality of racks 34 and transmits like this, rack 34 drives linkage ring gear 35 and rotates, linkage ring gear 35 drives cup joint rotatory ring 29 and transmits, cup joint rotatory ring 29 drives linkage bull stick 28 and rotates, linkage bull stick 28 drives rotary rod 1 and transmits, the transmission is played like this and is driven the gear wheel by the pinion from inside to outside and is transmitted, it is more laborsaving to transmit, it is bigger to twist the acceleration power, the transmission power is stronger.

The points to be finally explained are: first, in the description of the present application, it should be noted that, unless otherwise specified and limited, the terms "mounted," "connected," and "connected" should be understood broadly, and may be a mechanical connection or an electrical connection, or a communication between two elements, and may be a direct connection, and "upper," "lower," "left," and "right" are only used to indicate a relative positional relationship, and when the absolute position of the object to be described is changed, the relative positional relationship may be changed;

secondly, the method comprises the following steps: in the drawings of the disclosed embodiments of the invention, only the structures related to the disclosed embodiments are referred to, other structures can refer to common designs, and the same embodiment and different embodiments of the invention can be combined with each other without conflict;

and finally: the present invention is not limited to the above preferred embodiments, but rather, any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. The utility model provides an assemble acceleration mechanism that fluent strip used, includes rotary rod (1), its characterized in that: one end of the rotating rod (1) is provided with a butt joint rod (2), and a splicing mechanism is arranged outside the butt joint rod (2);

the splicing mechanism comprises a fixing ring (3) arranged outside a butt joint rod (2), wherein one side of the fixing ring (3) is distributed in an annular equal distance mode and is provided with four positioning grooves (39), a multi-tooth embedded groove (5) is arranged inside the butt joint rod (2), one side of the multi-tooth embedded groove (5) is provided with a cross positioning groove (4), the other side of the multi-tooth embedded groove is provided with a positioning block (6), one side of the positioning block (6) is connected with a first splicing tooth block (7), one side of the first splicing tooth block (7) is connected with an installation supporting rod (8), the outside of the installation supporting rod (8) is distributed in an annular equal distance mode and is provided with four positioning matching strips (9), one end of the installation supporting rod (8) is provided with a second splicing tooth block (10), one side of the second splicing tooth block (10) is provided with a transmission head (11), and the inner wall of the transmission head (11) is provided with a positioning butt joint groove (12), and a joint tooth socket (13) is formed on one side of the positioning butt joint groove (12).

2. An accelerating mechanism for assembling fluency strips as recited in claim 1, wherein: the welding is fixed between rotary rod (1) and butt joint pole (2), solid fixed ring (3) inside and butt joint pole (2) outside welding is fixed.

3. An accelerating mechanism for assembling fluency strips as recited in claim 1, wherein: the outside fixed ring (3) looks joint that matches strip (9) one end and constant head tank (39) belong to in location, and annular equidistance joint, the outside transmission head (11) looks joint that matches strip (9) other end and location butt joint groove (12) belong to in location.

4. An accelerating mechanism for assembling fluency strips as recited in claim 1, wherein: the vertical section of the positioning block (6) is in a cross shape, and the vertical section area of the cross positioning groove (4) is larger than that of the positioning block (6).

5. An accelerating mechanism for assembling fluency strips as recited in claim 1, wherein: the first inserting tooth block (7) is similar to the multi-tooth embedded groove (5) in shape, and the vertical cross-sectional area of the first inserting tooth block (7) is smaller than that of the multi-tooth embedded groove (5).

6. An accelerating mechanism for assembling fluency strips as recited in claim 1, wherein: the positioning matching strip (9) is externally provided with a first semicircular butt joint ring (14), the two ends of the first semicircular butt joint ring (14) are respectively provided with an inserting block (15), a fastening mechanism is installed above the inserting block (15) and comprises a second semicircular butt joint ring (16) arranged above the inserting block (15), the second semicircular butt joint ring (16) and the inserting block (15) are clamped, the outer walls of the second semicircular butt joint ring (16) and the first semicircular butt joint ring (14) are respectively provided with a pulling support plate (17), the pulling support plate (17) is connected with a sliding block (18) close to one side of the inner wall, the two sides of the sliding block (18) are respectively provided with a limiting plate (19), the two sides of the limiting plate (19) are respectively provided with a positioning sliding frame (21), a sliding support plate (20) is arranged inside the positioning sliding frame (21), the bottom end of the limiting plate (19) is provided with a thread transmission block (22), the screw thread transmission block (22) is internally provided with a rotating screw rod (23), and the other side of the pulling support strip plate (17) is connected with a limiting and fitting block (27).

7. An accelerating mechanism for assembling fluency strips as recited in claim 6, wherein:

the sliding support plate (20) and the sliding block (18) are welded and fixed, the sliding support plate (20) is connected with the positioning sliding frame (21) in a sliding manner, one side of the sliding support plate (20) is connected with a linkage block (25),

and a limiting block (26) is arranged above the linkage block (25).

8. An accelerating mechanism for assembling fluency strips as recited in claim 6, wherein: the rotary screw rod (23) is in threaded connection with the threaded transmission block (22), one end of the rotary screw rod (23) is provided with a rotary cap (24), and the vertical cross section of the rotary cap (24) is hexagonal.

9. An accelerating mechanism for assembling fluency strips as recited in claim 1, wherein: the linkage rotating rod (28) is installed at the other end of the rotating rod (1), a sleeving and rotating ring (29) is sleeved on the outer wall of the linkage rotating rod (28), a linkage gear (31) is installed outside one end of the linkage rotating rod (28) and located at one side of the sleeving and rotating ring (29), a transmission rotating rod (30) is arranged inside the linkage gear (31), three driving gears (32) are distributed outside the linkage gear (31) in an annular and equidistant mode, a supporting shaft rod (33) is arranged inside the driving gears (32), a plurality of meshed racks (34) are arranged outside the driving gears (32), a linkage toothed ring (35) is connected to the outside of the racks (34), and a sleeving and protecting box (38) is sleeved outside the rotating rod (1).

10. An accelerating mechanism for assembling fluency strips as recited in claim 9, wherein: the transmission bull stick (30) outside and linkage gear (31) inside fixed connection, driving motor (36) are installed to transmission bull stick (30) one end, driving motor (36) both sides all are provided with support bracket (37), meshing transmission is connected between drive gear (32) and linkage gear (31).